DE390160C - Starting electric motor - Google Patents

Description

Starting electric motor. It is known - the use of pre-existing in starting electric motors, which the drive and Eias starting of explosion engines with a relatively large! Torque allowed without undue stress on the battery, d . H. without letting the constant current consumption surges become too large. However, this device still has a disadvantage. In the case of a normal starting process, ie a starting process in which the explosion engine starts up after more or fewer revolutions, no complications will occur. However, improper handling can cause the starter motor to suffer very sensitive blows, which not infrequently result in its destruction. Experience has shown that there are mainly two cases here. After a few initial explosions, the explosion motor can throw the drive gear wheel out of engagement with the swivel housing in the normal way and then stand still again, while the driver keeps the starter motor still under power, whereby the latter comes up to very high numbers of revolutions. After this, in order to bring the drive gear back into engagement with the ring gear of the flywheel, the driver will interrupt the contact for a moment in order to switch it on again immediately, while the starter motor is still running at high speed. This results in the engagement with great force, and in most cases some part is destroyed by the differential force of the rotor. The other case is that after a few explosions have initially taken place and the drive gear finitely thrown the swivel housing in the correct way out of the grip of the thing, a sudden kick-back is caused by a large spark ignition, which causes the explosioninotor to move backwards. There are lotfires who, in such cases, accomplish several university members in the opposite direction of rotation, whereby they come up with a fairly high number of revolutions. Should it now occur to the driver to operate the starter motor in order to put an end to this state of affairs, then again first irting can occur in that the teeth; the drive gear and the flywheel ring gear collide with great force in the opposite direction, because the moving masses, which are very large, rotate in opposite directions.

It is also already known to endorse this evil by that the drive between the starter motor and the explosion motor is not made absolutely rigid becomes, but only to a certain extent, so <iaß if one is exceeded a certain maximum speed a yielding occurs. This is achieved by that a known slip clutch at any point between the starter motor and the explosion engine is switched on.

The present invention relates to a # special type of installation this slip clutch on occasions electric motors, which on a common shaft by means of Swivel housing for radial engagement swiveling countershaft and drive gear own, and consists in the fact that the slip clutch between the countershaft and your drive wheel is installed.

An exemplary embodiment of the invention is shown in the drawing.

Fig. I shows the starter gear in longitudinal section.

Fig. Z is a normal section along line # 1-A through the countersection. Fig.3 is a top plan view of one friction plate and Fig. Q. a top view the other row lamella.

On the shaft i of the starter motor, the motor gear c is firmly driven by means of a square. The MotorzalinrafI e meshes with the counter gear f. which drives the drive gear ä. The latter is caused by the swiveling of the housing when starting by one in the drawing. Z "orrichtung, not shown, is taken along, in the radial direction for engagement finit your ring gear k on the flywheel of the explosion engine. The drive gear - is rotatably mounted on your bolt h in your pivoting housing. On the one hand, it is finitely equipped with a ni zvlindrischen approach on which the countersunk gear f can rotate. The latter is provided on both sides with finitely larger recesses in which the entire slip clutch is housed without the normal gear wheel width having to be exceeded p provided, in which corresponding approaches of the friction plates 1, so that the latter are inevitably connected to your gear g. Zlvisclieii den 1 - ainellen l is another friction plate vi, which by similar grooves q in the "gear f and corresponding Approaches finite the latter is inevitably connected. The pressure necessary to achieve the frictional connection is applied by a number of springs n. «-Which are ripped together in a circle and find their resistance on a disk o which is secured in the axial direction. The springs are tuned in such a way that their pressure creates as much friction as is necessary, they still have to apply a very specific maximum torque. If this torque is exceeded in one or the other direction of rotation, slipping occurs and the device is spared. That: Maximum torque is chosen high enough to drive even the largest explosion nintor under normal circumstances to 1; i inside.

Claims (1)

PATENT CLAIMS: i. Starting electric motor finite on a common shaft mounted, radially engaging: aretn countershaft and drive gear, characterized There is a slip clutch between a counter gear and your drive gear is built in. a. Starting electric motor according to Claim i, characterized in that the slip clutch is housed inside the countershaft gear (f) without that the normal tooth width is thereby enlarged.